CN211946674U - Multi-biological-phase integrated sewage, sludge and odor cooperative treatment equipment - Google Patents

Abstract

The utility model discloses an integration sewage, mud and foul smell concurrent processing equipment of many biological phases, including preliminary treatment pond, foul smell processing apparatus, reaction tank, three-phase separator, sludge concentration and decrement pond and deep processing mechanism, preliminary treatment pond with the reaction tank is linked together, the reaction tank with three-phase separator's input is linked together, reaction tank, preliminary treatment pond, three-phase separator's gas discharge end and sludge concentration and decrement pond all with foul smell processing apparatus is linked together, three-phase separator's solid discharge end with sludge concentration and decrement pond are linked together, three-phase separator's liquid discharge end with deep processing mechanism is linked together, and this device can provide many biological phases, highly integrated high-efficient in coordination except that foul smell, sewage and mud, and energy-conserving economy.

Description

Multi-biological-phase integrated sewage, sludge and odor cooperative treatment equipment

Technical Field

The utility model relates to a sewage, mud, foul smell concurrent processing device, in particular to integrated sewage, mud and foul smell concurrent processing equipment of many biological phases.

Background

At present, the basic methods of sewage treatment include a physical method, a chemical method and a biological method, one method or a combination method of two or more methods is often adopted in practical application, no matter which method is adopted, the existing sewage treatment system can generate pollutants such as sludge and odor, but the existing sewage treatment system has weak treatment capacity on the sludge and odor generated by the existing sewage treatment system, and cannot perform synergistic treatment on the sewage, the sludge and the odor. For the sewage treatment plant, an independent deodorization system is arranged, so that the floor area is large, the energy consumption is high, and the comprehensive cost is high; for the integrated sewage treatment equipment, a sludge treatment system and a deodorization system are not arranged for saving the occupied area, the sensory effect of the equipment is cold, and the coordination with the natural environment is poor. With the continuous promotion of the national ecological civilization construction, the attention degree of people to the ecological environment is continuously improved, and the aesthetic ability of people is continuously improved. Therefore, the synergistic treatment system and the integrated equipment for treating sewage, sludge and odor with high efficiency, high integration, small occupied area, energy conservation, economy and ornamental value are urgently needed to be created so as to meet the requirements of ecological civilization construction.

SUMMERY OF THE UTILITY MODEL

To the above existing problem, the to-be-solved technical problem of the utility model lies in providing high-efficient scrubbing, economy, energy-conservation, highly integrated integration sewage, mud and foul smell concurrent processing equipment of a many biological phases.

The utility model provides an integration sewage, mud and foul smell concurrent processing equipment of many biological phases, including preliminary treatment pond, foul smell processing apparatus, reaction tank, three-phase separator, sludge concentration and decrement pond and deep processing mechanism, preliminary treatment pond with the reaction tank is linked together, the reaction tank with three-phase separator's input is linked together, reaction tank, preliminary treatment pond, three-phase separator's gas discharge end and sludge concentration and decrement pond all with foul smell processing apparatus is linked together, three-phase separator's solid discharge end with sludge concentration and decrement pond are linked together, three-phase separator's liquid discharge end with deep processing mechanism is linked together.

Preferably, the odor treatment device comprises a first outer shell, a first communicating pipe, an air distribution pipe, a first filler fixing net, a spraying pipeline, a first backflow pipe with a regulating valve and a check valve, a first microorganism feeding pipe and an ecological basket, wherein the first communicating pipe is used for communicating a gas gathering space of the reaction tank, the pretreatment tank, the three-phase separation device, the sludge concentration and reduction tank with the odor treatment device, the first communicating pipe is communicated with the air distribution pipe, an air outlet of the air distribution pipe is uniformly distributed under the first filler, the first filler is fixed through the first filler fixing net, the first filler fixing net is fixedly connected with the inner wall of the first outer shell, the spraying pipeline is positioned above the inside of the first outer shell, the first microorganism feeding pipe is communicated with the outer shell, the first backflow pipe is respectively communicated with the first outer shell and the pretreatment tank, the spraying pipeline is provided with a spraying pump, and the bottom of the ecological basket penetrates through the outer shell.

Preferably, the advanced treatment mechanism comprises a valveless filter, an ecological filter and a disinfection channel mechanism, the valveless filter is communicated with the liquid discharge end of the three-phase separation device, the ecological filter is communicated with the valveless filter, and the disinfection channel mechanism is communicated with the ecological filter.

Preferably, the preliminary treatment pond still includes first dive agitator, first blow-down pipe, second communicating pipe, inlet tube and roof, first blow-down pipe with first dive agitator all locates the bottom in preliminary treatment pond, the second communicating pipe will preliminary treatment pond top with reaction tank upper portion intercommunication, the inlet tube passes first shell body, the inlet tube is located the roof lower part, the roof with the shell body links to each other, the roof is the slope setting.

Preferably, the reaction tank further comprises a second filler, an aerator, a second submersible stirrer, a second emptying pipe and a microbial flocculant adding pipe, wherein the aerator, the second submersible stirrer and the second emptying pipe are all arranged at the bottom of the reaction tank, the second filler is fixed in the reaction tank, and the microbial flocculant adding pipe is arranged above a pipe orifice of the second communicating pipe.

Preferably, the three-phase separation device comprises a porous plate, a middle partition plate, a sludge guide plate, a gas guide plate, an internal reflux pump, an inclined pipe, a water collection tank and a third communication pipe, wherein the porous plate is arranged at the lower part of the middle partition plate, the sludge guide plate is arranged at the inner side of the middle partition plate, the sludge guide plate inclines towards the porous plate, the gas guide plate is arranged at the inner side of the middle partition plate, the internal reflux pump is arranged at the upper part of the middle partition plate, the inclined pipe is arranged above the sludge guide plate, the water collection tank is arranged in the middle partition plate, one end of the third communication pipe is communicated with the water collection tank, and the other end of the third communication pipe is communicated with the valveless filter.

Preferably, the sludge concentration and reduction pool comprises a sludge settling pipe, a second microorganism feeding pipe, a third submersible stirrer, a sludge discharge pipe and a fourth communicating pipe, the sludge settling pipe penetrates through the sludge guide plate and the sludge concentration and reduction pool and the three-phase separation device, the second microorganism feeding pipe is arranged on the sludge concentration and reduction pool, the third submersible stirrer is arranged at the bottom of the sludge concentration and reduction pool, the sludge discharge pipe is arranged at the bottom of the sludge concentration and reduction pool, and the fourth communicating pipe penetrates through the sludge guide plate and the three-phase separation device top gas gathering space.

Preferably, the advanced treatment mechanism further comprises a first filter material, a first filter plate, a baffle, a clean water communicating pipe, a third vent pipe, a siphon ascending pipe, a siphon descending pipe, a siphon auxiliary pipe, an air exhaust pipe, a siphon destroying device, a water seal well, a drainage well, a reflux pump and a second reflux pipe, wherein the first filter plate is connected with the inner wall of the valveless filter, the first filter material is arranged on the first filter plate, the baffle is arranged above the first filter material and connected with the inner wall of the valveless filter, the clean water communicating pipe passes through the first filter material, the first filter plate and the baffle, the third vent pipe is arranged at the bottom of the valveless filter, one end of the siphon ascending pipe is communicated with the valveless filter through the baffle, the other end of the siphon ascending pipe is communicated with the siphon descending pipe, the siphon auxiliary pipe is arranged on the siphon ascending pipe, the siphon destroys the ware and locates the baffle top, the siphon destroy the pipe one end with the siphon destroys the ware and links to each other, the siphon destroy the pipe the other end with the siphon tedge links to each other, the one end of exhaust tube with the siphon destroys the pipe and links to each other, the other end of exhaust tube with the siphon auxiliary line links to each other, the water sealed well with the valveless filtering pond links to each other, the siphon auxiliary line with the siphon downtake all with the water sealed well is linked together, the drainage well with the water sealed well is linked together, the backwash pump is located in the drainage well, the second back flow passes through the backwash pump with the preliminary treatment pond is linked together.

Preferably, degree of depth processing mechanism still includes the second filter plate, is used for planting submerged plant's second filter material, moisturizing pump, third microorganism and throws feeder tube, moisturizing pipe, light collection window, light source, flat board under water, the second filter plate is located in the ecological filter tank, the second filter material is located the top of second filter plate, the third microorganism is thrown feeder tube and is located ecological filter tank bottom, the moisturizing pump is located in the ecological filter tank, the moisturizing pump passes through the moisturizing pipe with odor treatment device's top intercommunication, the light collection window is located on the first shell body in second filter material top, the light source is located under water the light collection window is opposite on the flat board, be used for breeding filter feeding nature aquatic organisms in the second filter material top water.

Preferably, the advanced treatment mechanism further comprises a disinfection channel mechanism, the disinfection channel mechanism is arranged in the ecological filter tank, the disinfection channel mechanism comprises an ultraviolet sterilizer, a triangular weir water collecting tank and a water outlet pipe, the ultraviolet sterilizer is arranged in the triangular weir water collecting tank, the triangular weir water collecting tank is arranged in the ecological filter tank, the water outlet pipe is connected with the triangular weir water collecting tank, the reaction tank is provided with a second filler, the ecological basket comprises a main basket, a water storage core basket, a main basket filler and a core basket filler, and the ecological filter tank is characterized in that the water storage core basket and the main basket are of an integral structure, the basket bottom and the basket wall of the main basket adopt a hollow structure, the basket bottom and the basket wall of the water storage core basket adopt a solid wall structure, the main basket filler adopts porous ceramsite with good deodorization performance and mature film hanging performance, the core basket filler adopts granular activated carbon with good deodorization performance and mature film hanging performance, the ecological basket is used for planting aquatic plants with developed root systems.

The beneficial effects of the utility model reside in that:

the utility model discloses an integrated sewage, mud and foul smell cooperative processing equipment of many biological phases, through the preliminary treatment pond carries out the preliminary treatment to sewage, then discharges the sewage after the preliminary treatment into in the reaction tank, then passes through the further processing of reaction tank, gets rid of pollutants such as most organic matters, ammonia nitrogen, total phosphorus, then can pass through three-phase separator separates sewage into foul smell, sewage and mud and leads into different regions respectively and carry out subsequent processing, through the foul smell processing apparatus handles the foul smell that separates out, through the advanced treatment mechanism can carry out advanced treatment with sewage and make quality of water further promote, through sludge concentration and decrement pond can be handled mud with the efficient, through the use of this device, can be with foul smell, sewage and mud cooperative processing, effectively reduced processing system's area and energy quantity, the treatment effect on pollutants is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

FIG. 1 is a schematic view of the overall structure of the integrated sewage, sludge and odor co-processing equipment with multiple biological phases;

fig. 2 is a structural schematic diagram of an ecological basket of the multi-biological-phase integrated sewage, sludge and odor cooperative treatment device of the present invention.

In the figure, 1 is a pretreatment tank, 2 is an odor treatment device, 201 is a first outer shell, 202 is a first communicating pipe, 203 is an air distribution pipe, 204 is a first filler, 205 is a first filler fixing net, 206 is a spraying pipeline, 207 is a first return pipe, 208 is a first microorganism adding pipe, 209 is an ecological basket, 210 is a spraying pump, 3 is a reaction tank, 4 is a three-phase separation device, 401 is a porous plate, 402 is a middle partition plate, 403 is a sludge guide plate, 404 is a gas guide plate, 405 is an internal return pump, 406 is an inclined pipe, 407 is a water collecting tank, 408 is a third communicating pipe, 5 is a sludge concentration and reduction tank, 6 is a depth treatment mechanism, 601 is a valveless filter tank, 602 is an ecological filter tank, 603 is a disinfection channel mechanism, 7 is an aerator, 8 is a first submersible stirrer, 9 is a first emptying pipe, 10 is a top plate, 11 is a sludge settling pipe, 12 is a second microorganism adding pipe, 13 is a second submersible stirrer, 14 is a sludge discharge pipe, 15 is a fourth communicating pipe, 16 is a first filter material, 17 is a first filter plate, 18 is a baffle plate, 19 is a clear water communicating pipe, 20 is a third emptying pipe, 21 is a siphon ascending pipe, 22 is a siphon descending pipe, 23 is a siphon auxiliary pipe, 24 is an air suction pipe, 25 is a siphon breaking pipe, 26 is a siphon breaker, 27 is a water seal well, 28 is a drainage well, 29 is a reflux pump, 30 is a second reflux pipe, 31 is a second filter plate, 32 is a second filter material, 33 is a water replenishing pump, 34 is a third microorganism feeding pipe, 35 is an ultraviolet sterilizer, 36 is a triangular weir water collecting tank, 37 is an outlet pipe, 38 is a second filler, 39 is a water replenishing pipe, 40 is a second emptying pipe, 41 is a check valve, 42 is an underwater light source, 43 is a lighting window, 44 is a water inlet pipe, 45 microorganism flocculant feeding pipe, 20946 is a second communicating pipe, 1 is a main basket, 2092 is a water storage core, 2093 is a main basket filler, 2094 core basket packing, 47 regulating valve, and 48 third submersible mixer.

Detailed Description

In order to better understand the technical content of the present invention, the following embodiments are provided, and the present invention is further described with reference to the accompanying drawings.

Referring to fig. 1 and 2, the utility model provides a multi-biological-phase integrated sewage, sludge and odor cooperative treatment equipment, which comprises a pretreatment tank 1, an odor treatment device 2, a reaction tank 3, a three-phase separation device 4, a sludge concentration and reduction tank 5 and an advanced treatment mechanism 6, wherein the pretreatment tank 1 is communicated with the reaction tank 3, the reaction tank 3 is communicated with the input end of the three-phase separation device 4, the gas discharge end of the reaction tank 3, the pretreatment tank 1 and the three-phase separation device 4 and the sludge concentration and reduction tank 5 are communicated with the odor treatment device 2, the solid discharge end of the three-phase separation device 4 is communicated with the sludge concentration and reduction tank 5, the liquid discharge end of the three-phase separation device 4 is communicated with the advanced treatment mechanism 6, and sewage is pretreated by the pretreatment tank 1, then the sewage after the preliminary treatment is discharged in the reaction tank 3, then pass through the further processing of reaction tank 3 gets rid of pollutants such as most organic matters, ammonia nitrogen, total phosphorus, then can pass through three-phase separator 4 separates into foul smell, sewage and mud and leads to different regions respectively and carry out subsequent processing, through the foul smell processing apparatus 2 is handled the foul smell of separating out, through deep treatment mechanism 6 can carry out the advanced treatment with sewage and make quality of water further promote, through sludge concentration and decrement pond 5 can be handled mud, through the use of this device, can efficient with foul smell, sewage and mud coprocessing, the effectual treatment effect to sewage that has improved.

Specifically, the odor treatment device 2 comprises a first outer shell 201, a first communicating pipe 202, a gas distribution pipe 203, a first filler 204, a first filler fixing net 205, a spraying pipeline 206, a first return pipe 207 with a regulating valve 47 and a check valve 41, a first microorganism feeding pipe 208 and an ecological basket 209, wherein the first communicating pipe 202 connects the gas gathering space of the reaction tank 3, the pretreatment tank 1, the three-phase separation device 4, the sludge concentration and reduction tank 5 with the odor treatment device, the first communicating pipe 202 is connected with the gas distribution pipe 203, the gas outlet of the gas distribution pipe 203 is uniformly distributed under the first filler 204, the first filler 204 is fixed by the first filler fixing net 205, the first filler fixing net 205 is fixedly connected with the inner wall of the first outer shell 201, the spraying pipeline 206 is positioned above the inside of the first outer shell 201, first microorganism dosing pipe 208 with the shell body is linked together, first return pipe 207 respectively with first shell body 201 with pretreatment tank 1 is linked together, be equipped with spray pump 210 on the spray line 206, the bottom of ecological basket 209 is passed the shell body, first filler 204 is the empty ring of polypropylene filler that the inoculation deodorization performance is good and the biofilm formation is ripe. The first microorganism adding pipe 208 conveys the microbial inoculum with good deodorization performance into the odor treatment device 2 by means of external force. Spraying pipeline 206 spun liquid first filler 204 the cooperation between the microbial inoculum that first microorganism dosing tube 208 was thrown, thereby can with the residual gas that reaction tank 3 aeration produced, the foul smell that biochemical reaction produced the foul smell that three-phase separator 4 separated and the foul smell that mud concentration and decrement pond 5 produced is handled, then passes through spraying pipeline 206 spun water mixes with the foul smell, and for microorganism on the first filler 204 provides suitable growing environment, thereby makes the concentrated solution that produces and follow the biomembrane that drops on the first filler 204 passes through spraying pump 210 passes through first return tube 207 flows back to pretreatment tank 1, increases microorganism amount and biological phase in pretreatment tank 1, the air that the aeration spilled over in the reaction tank 3 enters into can also be for behind the foul smell processing apparatus 2 microorganism oxygen suppliment in the foul smell processing apparatus 2, the oxygen utilization rate is improved while the odor is eliminated.

Specifically, the advanced treatment mechanism 6 comprises a valveless filter 601, an ecological filter 602 and a disinfection channel mechanism 603, wherein the valveless filter 601 is communicated with the liquid discharge end of the three-phase separation device 4, the ecological filter 602 is communicated with the valveless filter 601, the disinfection channel mechanism 603 is communicated with the ecological filter 602, and sewage separated by the three-phase separation device 4 can be further deeply purified and disinfected through the cooperation among the valveless filter 601, the ecological filter 602 and the disinfection channel mechanism 603.

Concretely, preliminary treatment pond 1 still includes first dive agitator 8, first blow-down pipe 209, second communicating pipe 46, inlet tube 44 and roof 10, first blow-down pipe 209 with first dive agitator 8 all locates preliminary treatment pond 1's bottom, second communicating pipe 46 will preliminary treatment pond 1 top with reaction tank 3 upper portion intercommunication, inlet tube 44 passes first shell body 201, inlet tube 44 is located roof 10 lower part, roof 10 with the shell body links to each other, roof 10 is the slope setting, through the cooperation of first dive agitator 8 and second communicating pipe 46 can be stirred deposited mud and make it be in preliminary treatment pond 1 homogeneity exists to the gaseous discharge reaction tank 3 that produces in the preliminary treatment pond 1.

Specifically, the reaction tank 3 further comprises a second filler 38, an aerator 7, a second submersible stirrer 13, a second emptying pipe 40 and a microbial flocculant adding pipe 45, wherein the aerator 7, the second submersible stirrer 13 and the second emptying pipe 40 are all arranged at the bottom of the reaction tank 3, the second filler 38 is fixed in the reaction tank 3, the microbial flocculant adding pipe 45 is arranged above the pipe orifice of the second communicating pipe 46, and the second filler 38 is an active filler for embedding functional bacteria such as bacillus, nitrobacteria, denitrifying bacteria and ammonia oxidizing bacteria.

Specifically, the three-phase separation device 4 includes a porous plate 401, a middle partition plate 402, a sludge guide plate 403, a gas guide plate 404, an internal reflux pump 405, an inclined pipe 406, a water collection tank 407, and a third communicating pipe 408, the porous plate 401 is disposed at a connection position between the reaction tank 3 and the middle partition plate 402, the sludge guide plate 403 is disposed at a lower portion of the middle partition plate 402, the sludge guide plate 403 is inclined toward the porous plate 401, the gas guide plate 404 is disposed inside the middle partition plate 402, the internal reflux pump 405 is disposed at an upper portion of the middle partition plate 402, the inclined pipe 406 is disposed above the sludge guide plate 403, the water collection tank 407 is disposed inside the middle partition plate 402, one end of the third communicating pipe 408 is communicated with the water collection tank 407, the other end of the third communicating pipe 408 is communicated with the valveless filter 601, and gas separation can be promoted by the sludge guide plate 403 and the gas guide plate, the clean water after three-phase separation can be guided into the valveless filter 601 by the cooperation of the water collecting tank 407 and the third communicating pipe 408, so that the sewage, the sludge and the odor can be conveniently subjected to subsequent treatment respectively. The inclined tube 406 is filled with inclined tube 406 with the diameter of 30mm-80mm, and the inclined tube 406 forms an included angle of 60 degrees with the horizontal plane.

Specifically, the sludge concentration and reduction tank 5 includes a sludge settling pipe 11, a second microorganism adding pipe 12, a third submersible mixer 48, a sludge discharge pipe 14 and a fourth communicating pipe 15, the sludge settling pipe 11 passes through the sludge guide plate 403 and communicates with the sludge concentration and reduction tank 5 and the three-phase separation device 4, the second microorganism adding pipe 12 is arranged on the sludge concentration and reduction tank 5, the third submersible mixer 48 is arranged at the bottom of the sludge concentration and reduction tank 5, the sludge discharge pipe 14 is arranged at the bottom of the sludge concentration and reduction tank 5, the fourth communicating pipe 15 passes through the sludge guide plate 403 and communicates with the gas gathering space at the top of the three-phase separation device 4, separated sludge can be introduced into the sludge concentration and reduction tank 5 through the sludge settling pipe 11, and then microbial inoculum with good sludge reduction performance is added through the second microorganism adding pipe 12, thereby treating the separated sludge, and reducing the sludge under the dual functions of gravity and microorganism.

Specifically, the advanced treatment mechanism 6 further comprises a first filter material 16, a first filter plate 17, a baffle 18, a clean water communicating pipe 19, a third vent pipe 20, a siphon ascending pipe 21, a siphon descending pipe 22, a siphon auxiliary pipe 23, an air suction pipe 24, a siphon breaking pipe 25, a siphon breaker 26, a water seal well 27, a drain well 28, a reflux pump 29 and a second reflux pipe 30, wherein the first filter plate 17 is connected with the inner wall of the valveless filter 601, the first filter material 16 is arranged on the first filter plate 17, the baffle 18 is arranged above the first filter material 16 and connected with the inner wall of the valveless 601, the clean water communicating pipe 19 passes through the first filter material 16, the first filter plate 17 and the baffle 18, the third vent pipe 20 is arranged at the bottom of the valveless filter 601, one end of the siphon ascending pipe 21 is communicated with the valveless 601 through the baffle 18, the other end of the siphon ascending pipe 21 is communicated with the siphon descending pipe 22, the siphon auxiliary pipe 23 is arranged on the siphon ascending pipe 21, the siphon breaker 26 is arranged on the upper part of the baffle 18, one end of the siphon breaking pipe 25 is connected with the siphon breaker 26, the other end of the siphon breaking pipe 25 is connected with the siphon ascending pipe 21, one end of the suction pipe 24 is connected with the siphon breaking pipe 25, the other end of the suction pipe 24 is connected with the siphon auxiliary pipe 23, the water seal well 27 is connected with the valveless filter tank 601, the siphon auxiliary pipe 23 and the siphon descending pipe 22 are both communicated with the water seal well 27, the drain well 28 is communicated with the water seal well 27, the reflux pump 29 is arranged in the drain well 28, and the second reflux pipe 30 is communicated with the pretreatment tank 1 through the reflux pump 29, the first filter material 16 is a porous filler which is inoculated with good denitrification and ammonia oxidation activity and mature in biofilm formation. Through the cooperation between first filter material 16, first filter plate 17, baffle 18, clear water communicating pipe 19, third blow-down pipe 20, siphon tedge 21, siphon downcomer 22, siphon auxiliary pipe 23, exhaust pipe 24, siphon destroys pipe 25, siphon destroys ware 26, water seal well 27 and drainage well 28, can carry out further processing with sewage, get rid of pollutants such as organic matter, suspended solid, ammonia nitrogen, total nitrogen and filter the suspended solid, valveless filter 601 is automatic back flush under the hydraulic action after operation a period of time, realizes energy-conserving economic operation, through cooperation between backwash pump 29 and the second back flow pipe 30, can arrange the backwash water to pretreatment tank 1 handles, increases microorganism amount and biological phase in pretreatment tank 1 simultaneously.

Specifically, the advanced treatment mechanism 6 further comprises a second filter plate 31, a second filter material 32 for planting submerged plants, a water replenishing pump 33, a third microorganism adding pipe 34, a water replenishing pipe 39, a lighting window 43, an underwater light source 42 and a flat plate, the second filter plate 31 is arranged in the ecological filter 602, the second filter material 32 is arranged on the top of the second filter plate 31, the third microorganism adding pipe 34 is arranged at the bottom of the ecological filter 602, the water replenishing pump 33 is arranged in the ecological filter 602, the water replenishing pump 33 is communicated with the top of the odor treatment device 2 through the water replenishing pipe 39, the lighting window 43 is arranged on the first shell body 201 above the second filter material 32, the underwater light source 42 is arranged on the flat plate opposite to the lighting window 43, the water above the second filter material 32 is used for culturing filter feeding aquatic organisms, and the second filter material 32 is a porous filler which is inoculated with active materials with good nitrification activity and mature biofilm formation activity. The submerged plants are selected from the submerged plants such as the watermifoil and the hydrilla verticillata with strong decontamination capability, the filter-feeding aquatic organisms can adopt crabs, snails, bighead carps and the like, the waste liquid obtained by the back washing of the advanced treatment mechanism 6 carries the biomembranes falling off from the first filter material 16 and the second filter material 32, the waste liquid flows back to the pretreatment tank 1 through the reflux pump 29, the pollution of the back washing waste liquid is eliminated, the biological phase and the biological phase in the pretreatment tank 1 are increased, the treatment effect of the device is ensured, the sewage can be subjected to advanced purification treatment through the matching of the second filter plate 31, the second filter material 32, the lighting window 43, the underwater light source 42 and the third microorganism adding pipe 34, the biological phase and the biological phase in the ecological filter tank 602 are increased, and the treated water can be supplemented for the odor treatment device 2 through the water supplementing pipe 39 under the action of the water supplementing pump 33, thereby effectively utilizing the treated water to carry out synergistic treatment on odor.

Specifically, the advanced treatment mechanism 6 further includes a disinfection canal mechanism 603, the disinfection canal mechanism 603 is disposed in the ecological filter 602, the disinfection canal mechanism 603 includes an ultraviolet sterilizer 35, a triangular weir water collection tank 36 and a water outlet pipe 37, the ultraviolet sterilizer 35 is disposed in the triangular weir water collection tank 36, the triangular weir water collection tank 36 is disposed in the ecological filter 602, the water outlet pipe 37 is connected to the triangular weir water collection tank 36, the reaction tank 3 is provided with a second filler 38, the ecological basket 209 includes a main basket 2091, a water storage core basket 2092, a main basket filler 2093 and a core basket filler 2094, and is characterized in that the water storage core basket 2092 and the main basket 2091 are of an integral structure, the bottom and the basket wall of the main basket 2091 are of a hollow structure, the bottom and the basket wall of the water storage core basket 2092 are of a solid wall structure, the main basket filler 2093 is made of porous ceramsite which has good deodorization performance and is mature and is coated, the core basket filler 2094 is made of granular activated carbon with good deodorization performance and mature biofilm formation, the ecological basket 209 is used for planting aquatic plants with developed root systems, the main basket filler 2093 is made of porous ceramsite filler with good inoculation deodorization performance and mature biofilm formation, the core basket filler 2094 is made of granular activated carbon filler with good inoculation deodorization performance and mature biofilm formation, and the aquatic plants can adopt blue flower iris with developed root systems.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an integration sewage, mud and foul smell concurrent processing equipment of many biological phases, a serial communication port, including preliminary treatment pond, foul smell processing apparatus, reaction tank, three-phase separator, sludge concentration and decrement pond and deep processing mechanism, preliminary treatment pond with the reaction tank is linked together, the reaction tank with three-phase separator's input is linked together, reaction tank, preliminary treatment pond, three-phase separator's gas discharge end and sludge concentration and decrement pond all with foul smell processing apparatus is linked together, three-phase separator's solid discharge end with sludge concentration and decrement pond are linked together, three-phase separator's liquid discharge end with deep processing mechanism is linked together.

2. The multi-biological-phase integrated sewage, sludge and odor cooperative treatment equipment as claimed in claim 1, wherein the odor treatment device comprises a first outer shell, a first communication pipe, an air distribution pipe, a first filler fixing net, a spraying pipeline, a first return pipe with a regulating valve and a check valve, a first microorganism feeding pipe and an ecological basket, the first communication pipe communicates the gas gathering space of the reaction tank, the pretreatment tank, the three-phase separation device, the sludge concentration and reduction tank with the odor treatment device, the first communication pipe communicates with the air distribution pipe, the air outlet of the air distribution pipe is uniformly distributed under the first filler, the first filler is fixed by the first filler fixing net, the first filler fixing net is fixedly connected with the inner wall of the first outer shell, the spraying pipeline is positioned above the inside of the first outer shell, the first microorganism feeding pipe is communicated with the outer shell, the first backflow pipe is respectively communicated with the first outer shell and the pretreatment tank, a spray pump is arranged on a spray pipeline, and the bottom of the ecological basket penetrates through the outer shell.

3. The apparatus of claim 2, wherein the advanced treatment means comprises a valveless filter chamber, an ecological filter chamber and a disinfection channel means, the valveless filter chamber is communicated with the liquid discharge end of the three-phase separation device, the ecological filter chamber is communicated with the valveless filter chamber, and the disinfection channel means is communicated with the ecological filter chamber.

4. The multi-biological-phase integrated sewage, sludge and odor cooperative treatment device according to claim 3, wherein the pretreatment tank further comprises a first submersible stirrer, a first vent pipe, a second communicating pipe, a water inlet pipe and a top plate, the first vent pipe and the first submersible stirrer are arranged at the bottom of the pretreatment tank, the second communicating pipe communicates the top of the pretreatment tank with the upper part of the reaction tank, the water inlet pipe penetrates through the first outer shell, the water inlet pipe is arranged at the lower part of the top plate, the top plate is connected with the outer shell, and the top plate is obliquely arranged.

5. The multi-biological-phase integrated sewage, sludge and odor cooperative treatment equipment according to claim 4, wherein the reaction tank further comprises a second filler, an aerator, a second submersible stirrer, a second emptying pipe and a microbial flocculant feeding pipe, the aerator, the second submersible stirrer and the second emptying pipe are all arranged at the bottom of the reaction tank, the second filler is fixed in the reaction tank, and the microbial flocculant feeding pipe is arranged above the pipe orifice of the second communicating pipe.

6. The multi-organism integrated cooperative sewage, sludge and odor treatment equipment as claimed in claim 5, wherein the three-phase separation device comprises a porous plate, a middle partition plate, a sludge guide plate, a gas guide plate, an internal reflux pump, an inclined tube, a water collection tank and a third communicating tube, the porous plate is arranged at the lower part of the middle partition plate, the sludge guide plate is arranged at the inner side of the middle partition plate, the sludge guide plate is obliquely oriented to the porous plate, the gas guide plate is arranged at the inner side of the middle partition plate, the internal reflux pump is arranged at the upper part of the middle partition plate, the inclined tube is arranged above the sludge guide plate, the water collection tank is arranged in the middle partition plate, one end of the third communicating tube is communicated with the water collection tank, and the other end of the third communicating tube is communicated with the valveless filter tank.

7. The multi-biological-phase integrated sewage, sludge and odor cooperative treatment device according to claim 6, wherein the sludge concentration and reduction tank comprises a sludge settling pipe, a second microorganism adding pipe, a third submersible stirrer, a sludge discharge pipe and a fourth communicating pipe, the sludge settling pipe passes through the sludge guide plate and is communicated with the sludge concentration and reduction tank and the three-phase separation device, the second microorganism adding pipe is arranged on the sludge concentration and reduction tank, the third submersible stirrer is arranged at the bottom of the sludge concentration and reduction tank, the sludge discharge pipe is arranged at the bottom of the sludge concentration and reduction tank, and the fourth communicating pipe passes through the sludge guide plate and is communicated with a gas gathering space at the top of the three-phase separation device.

8. The multi-biological-phase integrated cooperative sewage, sludge and odor treatment equipment as claimed in claim 7, wherein the advanced treatment mechanism further comprises a first filter material, a first filter plate, a baffle plate, a clean water communicating pipe, a third vent pipe, a siphon ascending pipe, a siphon descending pipe, a siphon auxiliary pipe, an air suction pipe, a siphon breaking pipe, a siphon breaker, a water seal well, a drainage well, a reflux pump and a second reflux pipe, wherein the first filter plate is connected with the inner wall of the valveless filter tank, the first filter material is arranged on the first filter plate, the baffle plate is arranged above the first filter material and connected with the inner wall of the valveless filter tank, the clean water communicating pipe passes through the first filter material, the first filter plate and the baffle plate, the third vent pipe is arranged at the bottom of the valveless filter tank, and one end of the siphon ascending pipe is communicated with the valveless filter tank through the baffle plate, the other end of the siphon ascending pipe is communicated with the siphon descending pipe, the siphon auxiliary pipe is arranged on the siphon ascending pipe, the siphon breaker is arranged above the baffle, one end of the siphon breaking pipe is connected with the siphon breaker, the other end of the siphon breaking pipe is connected with the siphon ascending pipe, one end of the air suction pipe is connected with the siphon breaking pipe, the other end of the air suction pipe is connected with the siphon auxiliary pipe, the water seal well is connected with the valveless filter tank, the siphon auxiliary pipe and the siphon descending pipe are both communicated with the water seal well, the drainage well is communicated with the water seal well, the reflux pump is arranged in the drainage well, and the second reflux pipe is communicated with the pretreatment tank through the reflux pump.

9. The apparatus for the cooperative processing of integrated sewage, sludge and odor with multiple organisms according to claim 8, it is characterized in that the advanced treatment mechanism also comprises a second filter plate, a second filter material for planting submerged plants, a water replenishing pump, a third microorganism adding pipe, a water replenishing pipe, a lighting window, an underwater light source and a flat plate, the second filter plate is arranged in the ecological filter tank, the second filter material is arranged at the top of the second filter plate, the third microorganism adding pipe is arranged at the bottom of the ecological filter tank, the water replenishing pump is arranged in the ecological filter tank, the water replenishing pump is communicated with the top of the odor treatment device through the water replenishing pipe, the lighting window is arranged on the first outer shell above the second filter material, the underwater light source is arranged on the flat plate opposite to the lighting window, and a water body above the second filter material is used for culturing filter-feeding aquatic organisms.

10. The apparatus of claim 9, wherein the advanced treatment mechanism further comprises a disinfection channel mechanism disposed in the ecological filter tank, the disinfection channel mechanism comprises an ultraviolet sterilizer, a triangular weir water collection tank and a water outlet pipe, the ultraviolet sterilizer is disposed in the triangular weir water collection tank, the triangular weir water collection tank is disposed in the ecological filter tank, the water outlet pipe is connected to the triangular weir water collection tank, the reaction tank is provided with a second filler, the ecological basket comprises a main basket, a water storage core basket, a main basket filler and a core basket filler, the water storage core basket and the main basket are of an integral structure, the bottom and the wall of the main basket are of a hollow structure, the bottom and the wall of the water storage core basket are of a solid wall structure, the main basket filler is of porous ceramsite with good deodorization performance and mature film hanging performance, the core basket filler adopts the granular activated carbon with good deodorization performance and mature biofilm formation, and the ecological basket is used for planting aquatic plants with developed root systems.

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